北京科斯仪器有限公司
Beijing Coase Instrument Company Limited
对于我们的新朋友,感谢您的关注,
我们期待着与您合作的机会。
对于我们现有客户,感谢您的支持和业务,
我们承诺将继续超越您的期望。
三维人体组织仿电磁真软件平台Sim4Life 是由瑞士IT'IS基金会研发的,已获得瑞士CTI医疗科技奖,Sim4Life平台结合可计算人类模型、物理解算器和先进的组织模型,能直接分析人体真实世界和复杂技术设备,以及验证人体和解剖学环境之中的变化。Sim4Life采用高性能计算和最直观GUI架构,能实现精确的多物理模擬,和无尽的定制加快研发活动,协助医疗及科研团队优化医疗器械和治疗方法,且同時符合最安全性和有效性的要求。
三维人体组织电磁仿真软件平台Sim4Life运作流程可分成MRI/CT
3D影像重建、解剖及产品模型导入(CAD)、多样化解算器、组织和物理模型、直观的分析报告及硬体验证等阶段,能够在取得多张影像资料之后,快速进行完整3D三维影像重建,再利用內建产品模型,产生接近真实狀況的模擬资料。而且产品本身支持市面上常見的模型软件,包含各种公开的人体解剖模型,绝对能够符合不同医疗环境的使用需求。
三维人体组织电磁仿真软件平台Sim4Life內建为计算复杂问题所设计的运算核心,包括EM、热学、声波和流体求解,医疗研究单位只要安裝在高效能电脑上,即可在最短時间內获得运算結果。此外,三维人体组织仿真软件平台Sim4Life本身便有灌注模型,组织损伤模型和神经元模型,均是現今手术过程中使用頻率最高的元件,特別是软件本身可透过简单易于操作的图形化三维介面,协助操作者完成定义问题、离散,模擬和分析等步骤,能让模擬結果都更接近真实結果。
一般來说,健康管理平台上收集到的资料有兩大用途,首先是作为医生治疗前的评估參考,如用药种类或是手术形式,其次則是将病历资料转换为更容易阅读的可视化图像。医院或研究单位若能够将前述两类资料,输入到多重物理模擬软件Sim4Life時,則有助于新医疗技术开发,进而为特定疾病研发出更有效的药物或治疗工具。
In silico
The digital revolution is extending the frontiers of medicine and medical technology. Computer modeling and simulation (CM&S), or in silico technologies, merge computational tools with biology to intuitively, precisely, and reproducibly perform complex analyses of life sciences applications. With this emerging paradigm, experimental manipulations that are infeasible or impossible to conduct in real-life experiments can be created while maintaining experimental control: the perfect complement to in vivo and in vitro studies.
ZMT provides in silico solutions to the medical device industry. Our comprehensive simulation platform, Sim4Life, provides a powerful 3D validated biological and anatomical modeling environment for optimizing the effectiveness and performance of medical devices, improving patient safety, and discovering potential new treatments. Built from the ground up, Sim4Life provides smooth and fully automated or customizable workflows for applications ranging from exploratory research and medical device development to regulatory documentation for clinical trials and device certification.
we trust
Our software tools are thoroughly and continually verified to ensure their reliability and performance requirements as they evolve.
The same effort is on validation for our expanding portfolio of targeted life sciences models and applications.
ZMT also provides test systems for validation procedures that support complex requirements with software tools optimized for test and measurement systems.
At ZMT, we leverage the combined strength of our
expertise, experience, cost-effective solutions, and commitment to long and
fruitful client relationships to enhance your competitive advantage during the
regulatory submission process.
Phantoms Solvers & Tissue Models Validation Hardware
Sim4Life
Sim4Life is the first computational life sciences
platform integrating computable human phantoms with the most powerful physics
solvers and the most advanced tissue models for directly analyzing biological
real-world phenomena and complex technical devices in a 3D validated biological
and anatomical environment.
At the core of Sim4Life are the computable, high-fidelity 3D Virtual Population (ViP) human anatomical models. Carefully selected to fully represent global variations in human anatomy, the fully posable, morphable, and validated ViP models along with the IT'IS tissue properties database depict 15 different body types with 120 vital anatomical features and over 300 precisely identified tissues and organs. Cited and applied in hundreds of published studies and papers, the ViP models and the IT'IS material parameter database are continually and meticulously updated, refined, and expanded.
Sim4Life is a revolutionary simulation platform, combining computable human phantoms with the most powerful physics solvers and the most advanced tissue models, for directly analyzing biological real-world phenomena and complex technical devices in a validated biological and anatomical environment. The Sim4Life platform also offers leading performance with all the features expected from a multiphysics CAE/TCAD platform. Watch the Sim4Life demo video!
Computable Human Phantoms Physics Solvers
Sim4Life natively supports the Virtual Population ViP
3.0 models that include integrated posing and morphing tools. Other publicly
available animal and human anatomical models are also supported. All tissues
are linked to a continually updated physical properties database. |
The powerful Sim4Life solvers are specifically developed for computationally complex problems; HPC accelerated for the latest computer clusters; and smoothly integrated in the most advanced coupling framework. The platform already includes EM, Thermal Acoustic, and Flow solvers. |
The integrated tissue models enable the modeling and
analysis of physiological processes. Perfusion models, tissue damage models,
and neuronal models are already included in the first release of Sim4Life. |
The Sim4Life Framework efficiently facilitates all steps in complex multiphysics modeling, from defining the problem, discretizing, simulating, and analyzing to visualizing the results, with clarity and flexibility. |
Computable Human Phantoms可计算人类仿真软件 |
Physics Models
物理模型 |
Tissue Models
组织模型 |
Intuitive GUI and Workflow
|
Licensed Modules
可授权模块 |
ViP 3.0Virtual Population |
P-EM-FDTDElectromagnetics Full Wave Solvers |
T-NEURONeuronal Tissue Models |
iSEGMedical Image Segmentation Tool Set |
MRIM-MUSAIK M-TxCOIL M-BCAGE M-SYSSIM M-GRAD M-IMSAFE |
ViA 1.0Animal Models |
P-EM-QSQuasi-Static Electromagnetics Solvers |
T-CEM43Tissue Damage Models |
MODELERAdvanced Modeling Tool Set |
|
Third-Party Models |
P-THERMALThermodynamics Solvers |
T-FLOWRATESFlow Rate Computational Engine |
MESHERRobust & Effective Meshing |
MODELINGM-REMESH M-POSER |
|
P-FLOWFluid Dynamics Solvers |
ANALYZERVersatile Postprocessor and Analyzing Tool Set |
CALCULATORSM-DISPFIT M-PPCALC |
|
|
P-ACOUSTICSAcoustics Solvers |
|
PYTHONControl via Python Scripting |
PROCESSINGM-MATCH M-TALATLAS M-MBSAR M-PHARRAY |
|
P-CRDConvection Reaction Diffusion Solvers (coming soon) |
|
|
|
|
P-MECHMechanical Solvers (coming soon) |
|
|
IMPORTM-HUYGENS M-IMG M-VOX |
|
High Performance Computing Auto-Scheduler & Control ARES |
|
北京科斯仪器有限公司
地址:北京经济技术开发区荣华邮箱:coase@sohu.com
邮箱:1304964755@qq.com
北京科斯仪器有限公司 地址:北京市北京经济技术开发区荣华南路16号中冀斯巴鲁大厦A座1101
手机:15901042696 电话:010-59767239 传真:010-59767099 网址:www.coasebj.com 邮箱:coase@sohu.com 1304964755@qq.com
备案/许可证编号:京ICP备19013193号-1 工信部网址: http://www.b